한국해양대학교

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파력에너지 변환을 위한 직접구동터빈의 성능해석과 유동특성에 관한 연구

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dc.contributor.author 김창구 -
dc.date.accessioned 2017-02-22T07:12:14Z -
dc.date.available 2017-02-22T07:12:14Z -
dc.date.issued 2009 -
dc.date.submitted 56905-02-07 -
dc.identifier.uri http://kmou.dcollection.net/jsp/common/DcLoOrgPer.jsp?sItemId=000002176099 ko_KR
dc.identifier.uri http://repository.kmou.ac.kr/handle/2014.oak/10438 -
dc.description.abstract The purpose of this study is to examine the influence of nozzle shape on the performance and effect of wave conditions on the performance and internal flow of a direct drive turbine (DDT)model for wave energy conversion. The performance of the turbine is calculated by the variation of nozzle shape using a commercial CFD code. Moreover, Three kinds of test turbine models are adopted for the experiments of performance test and internal flow visualization. All the experiments using the test turbine models have been conducted in a 2-D wave channel. Regular waves by various wave conditions of wave height and wave period are applied to the turbine performance test. Influence of turbine configuration by several combinations of turbine nozzle shapes and attachment devices on the turbine performance is also investigated. The results of CFD analysis show that nozzle shape should be designed considering wave height and flow rate entering to the turbine. Best efficiencies of the turbine by 4 types of the nozzle shape do not change largely but overall performances vary mainly by the cross-sectional area of nozzle inlet. The output power of the cross-flow type hydro turbine changes considerably by the nozzle shape, and a partial region of Stage 2 in the runner blade passage obtains maximum regional output power in comparison with the other region of the runner blade passage. Experimental results show that rotational speed, differential pressure, inflow flow rate, maximum output power and best efficiency of the turbine model vary considerably by the wave conditions. Number of rotation time series data of no load condition is shown change of 10%. When wave height rises, the performance increases.(H=20cm , P_(T)=7.2W , η=45.5% -> H=26cm , P_(T)=11.9W , η=51.6%) Installation of front guide nozzle and rear water reservoir to the test turbine improves the turbine performance. Large passage vortex occurs both at the front and rear nozzles in turn by reciprocating flow in the turbine passage. -
dc.description.tableofcontents 제 1 장 서론 = 1 1.1 연구 배경 = 1 1.2 연구동향 = 2 1.3 연구목적 = 6 1.4 DDT 구동원리 = 8 제 2 장 CFD를 이용한 노즐 형상 결정 = 10 2.1 수치해석 기법 = 10 2.1.1 지배방정식 = 11 2.1.2 이산화 방법 = 11 2.1.3 난류모델링 = 14 2.2 노즐형상과 러너의 형상 = 17 2.3 계산격자 및 경계 조건 = 19 2.3.1 계산격자 = 20 2.3.2 경계조건 = 21 2.4 결과 및 고찰 = 22 2.4.1 성능 곡선 = 22 2.4.2 출력 해석 = 23 2.4.3 속도 벡터와 유선 = 25 2.4.4 속도 분포 = 27 2.4.5 압력 분포 = 30 제 3 장 직접구동터빈(DDT)의 성능 실험 = 33 3.1 실험장치 = 33 3.1.1 2D 조파 장치 = 33 3.1.2 직접구동터빈 모델 = 36 3.1.3 계측 센서 보정 = 40 3.2 실험방법 = 45 3.3 실험결과 및 고찰 = 46 3.3.1 시계열 데이터 = 46 3.3.2 파고변화 = 48 3.3.3 주기변화 = 50 3.3.4 수심변화 = 51 3.3.5 부착장치에 따른 성능 효과 = 56 3.3.6 노즐 방향에 따른 성능 효과 = 58 3.3.7 노즐 입구에서의 속도 변화 = 60 3.3.8 직접구동터빈의 유동가시화 = 61 제 4 장 결론 = 64 참고문헌 = 65 부록 = 67 감사의 글 = 88 -
dc.language kor -
dc.publisher 한국해양대학교 대학원 -
dc.title 파력에너지 변환을 위한 직접구동터빈의 성능해석과 유동특성에 관한 연구 -
dc.title.alternative A Study on the Performance Analysis and Flow Characteristics of the Direct Drive Turbine For Wave Energy Conversion -
dc.type Thesis -
dc.date.awarded 2009-02 -
dc.contributor.alternativeName KIM -
dc.contributor.alternativeName Chang-goo -
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기계공학과 > Thesis
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